Long-term cargo tracking reveals intricate trafficking through active cytoskeletal networks in the crowded cellular environment.

A eukaryotic cell is a microscopic world within which efficient material transport is essential. Yet, how a cell manages to deliver cellular cargos efficiently in a crowded environment remains poorly understood. Here, we used interferometric scattering microscopy to track unlabeled cargos in directional motion in a massively parallel fashion. Our label-free, cargo-tracing method revealed not only the dynamics of cargo transportation but also the fine architecture of the actively used cytoskeletal highways and the long-term evolution of the associated traffic at sub-diffraction resolution. Cargos frequently run into a blocked road or experience a traffic jam. Still, they have effective strategies to circumvent those problems: opting for an alternative mode of transport and moving together in tandem or migrating collectively. All taken together, a cell is an incredibly complex and busy space where the principle and practice of transportation intriguingly parallel those of our macroscopic world. Leveraging a label-free interferometric scattering microscope, scientists tracked numerous cargos within a crowded cellular environment. Intriguingly, cells employ effective strategies echoing human transportation systems to manage such transportation hurdles. [ABSTRACT FROM AUTHOR]